Open Loop Transfer Functions constitute a fast, graphic method for the analysis of stability. The focus of the present work is the generation of Open Loop Transfer Functions using LES and their evaluation for thermo-acoustic applications.
The particularities of thermo-acoustic problems in context with this type of stability analysis are elucidated. The stability of two thermo-acoustic systems, a laminar premix burner with flames stabilized of a perforated plate and a turbulent premix swirl burner are evaluated using Open Loop Transfer Functions. In doing so, possibilities and limits of the method are depicted.
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Open Loop Transfer Functions constitute a fast, graphic method for the analysis of stability. The focus of the present work is the generation of Open Loop Transfer Functions using LES and their evaluation for thermo-acoustic applications.
The particularities of thermo-acoustic problems in context with this type of stability analysis are elucidated. The stability of two thermo-acoustic systems, a laminar premix burner with flames stabilized of a perforated plate and a turbulent premix swirl bur...
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